Eeles R A
CRC Academic Unit of Radiotherapy, Institute of Cancer Research, Royal Marsden Hospital, Surrey.
Cancer Surv. 1995;25:101-24.
Since the majority of germline mutations in the TP53 gene seem to occur in LFS or LFL families, and these are rare, research is best conducted in a collaborative setting (Li and Fraumeni, in press). In a report from a meeting at Bethesda in 1993, the following areas were outlined for collaborative study: the correlation (if any) of phenotypes with specific mutation; age specific penetrance; cumulative cancer incidence; gender differences in tumour development in carriers; the effects of DNA damaging agents on individuals with a TP53 mutation; the frequency of TP53 germline mutations in cohorts of patients with rare childhood tumours (eg adrenocortical carcinoma); and the psychosocial aspects of predictive TP53 testing. In addition, if, as seems likely from recent data, X irradiation in these individuals induces DNA damage that is tolerated, urgent collaborative studies are needed to investigate new methods of screening, such as magnetic resonance imaging. Treatment modalities should be carefully chosen, and for this reason alone, predictive testing may be desirable in all LFS and LFL families. Individuals carrying TP53 mutations could be offered chemoprevention within trials in an effort to reduce their mortality from cancer.
由于TP53基因的大多数种系突变似乎发生在李-佛美尼综合征(LFS)或李-佛美尼样综合征(LFL)家族中,而这些家族较为罕见,因此最好在合作的环境中开展研究(Li和Fraumeni,即将发表)。在1993年于贝塞斯达召开的一次会议的报告中,列出了以下合作研究领域:特定突变与表型的相关性(若有);年龄特异性外显率;累积癌症发病率;携带者肿瘤发生中的性别差异;DNA损伤剂对携带TP53突变个体的影响;罕见儿童肿瘤(如肾上腺皮质癌)患者队列中TP53种系突变的频率;以及TP53预测性检测的社会心理方面。此外,如果从近期数据来看很有可能的话,这些个体接受X射线照射会诱导可耐受的DNA损伤,那么就需要开展紧急合作研究来调查新的筛查方法,如磁共振成像。治疗方式应谨慎选择,仅出于这个原因,在所有LFS和LFL家族中进行预测性检测可能是可取的。携带TP53突变的个体可在试验中接受化学预防,以努力降低其癌症死亡率。
